Abstract
The ALMA-ALPINE [CII] survey is aimed at characterizing the properties of a sample of normal star-forming galaxies (SFGs). The ALMA Large Program to INvestigate (ALPINE) features 118 galaxies observed in the [CII]-158 μm line and far infrared (FIR) continuum emission during the period of rapid mass assembly, right after the end of the HI reionization, at redshifts of 4 < z < 6. We present the survey science goals, the observational strategy, and the sample selection of the 118 galaxies observed with ALMA, with an average beam minor axis of about 0.85″, or ∼5 kpc at the median redshift of the survey. The properties of the sample are described, including spectroscopic redshifts derived from the UV-rest frame, stellar masses, and star-formation rates obtained from a spectral energy distribution (SED) fitting. The observed properties derived from the ALMA data are presented and discussed in terms of the overall detection rate in [CII] and FIR continuum, with the observed signal-to-noise distribution. The sample is representative of the SFG population in the main sequence at these redshifts. The overall detection rate in [CII] is 64% for a signal-to-noise ratio (S/N) threshold larger than 3.5 corresponding to a 95% purity (40% detection rate for S/N > 5). Based on a visual inspection of the [CII] data cubes together with the large wealth of ancillary data, we find a surprisingly wide range of galaxy types, including 40% that are mergers, 20% extended and dispersion-dominated, 13% compact, and 11% rotating discs, with the remaining 16% too faint to be classified. This diversity indicates that a wide array of physical processes must be at work at this epoch, first and foremost, those of galaxy mergers. This paper sets a reference sample for the gas distribution in normal SFGs at 4 < z < 6, a key epoch in galaxy assembly, which is ideally suited for studies with future facilities, such as the James Webb Space Telescope (JWST) and the Extremely Large Telescopes (ELTs).
Highlights
The mass assembly in galaxies at different epochs is the result of several physical processes which, in combination, produce the remarkable observed evolution of the star formation rate density (SFRD) with cosmic time (Silk & Mamon 2012; Madau & Dickinson 2014; Dayal & Ferrara 2018, and references therein)
This sample is representative of the overall star-forming galaxies (SFGs) population, rather than ultra luminous infrared galaxies (ULIRGS), that is, mostly of galaxies positioned on or near the so-called main sequence in the SFR versus Mstar plane observed at these redshifts (e.g., Speagle et al 2014; Tasca et al 2015; Tomczak et al 2016; Pearson et al 2018; Khusanova et al 2020), with Mstar and SFR derived from spectral energy distribution (SED) fitting setting the redshift to the spectroscopic redshift
The ALMA-ALMA Large Program to INvestigate (ALPINE) [CII] survey (A2C2S) provides an unprecedented view of a representative sample of 118 starforming galaxies observed in their assembly right after the end of HI reionization at redshifts 4 < z < 6
Summary
The mass assembly in galaxies at different epochs is the result of several physical processes which, in combination, produce the remarkable observed evolution of the star formation rate density (SFRD) with cosmic time (Silk & Mamon 2012; Madau & Dickinson 2014; Dayal & Ferrara 2018, and references therein). It broadly traces star formation activity, offering an important window on galaxy formation (Carilli & Walter 2013; De Looze et al 2014) This has led to the detection of strong [CII] emitters, up to very high redshifts (Capak et al 2015, Carniani et al 2017), which is an easier measurement than the FIR continuum. Specific predictions related to [CII] emission are useful for guiding and making comparisons with the observations (e.g., Yue et al 2015; Vallini et al 2015; Olsen et al 2017; Kohandel et al 2019) This whole domain opened up at high redshift (z > 4) with the ALMA interferometer becoming fully operational when pilot observations took note that detecting [CII] for normal galaxies was ubiquitous even with short on-source exposure times (Capak et al 2015).
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